Microphone with a Molecule

"Microphone" this word does suggest something very small,but can it be as small as a molecule?
Yes the scientists have figured out a way to use a single molecule to sense the vibrations made by the  sound.



Although we talk about "hearing" rather than "feeling" sound, sound is made up of the physical vibrations through some medium, usually air but any other liquid or gas would do too. (And when those vibrations hit our eardrums, we perceive it as sound.) When those vibrations hit a single molecule of dibenzoterrylene (DBT), according to a new study published in Physical Review Letters, it fluoresces according to the sound's pitch.

To get that molecule of dibenzoterrylene to work as a microphone of sorts, scientists had to trap several molecules of it in a crystal of anthracene. When a sound wave gently rocks the crystal, DBT molecules are knocked around inside. This movement changes the interaction between the electron clouds of DBT and anthracene, which ultimately result in a slight shift in DBT's fluorescence. By tracking the fluorescence of just a single molecule of DBT, the scientists could track the frequency of the sound.

So what's the use of just a tiny and delicate acoustic sensor? Probably not much in your everyday life, since the setup needs to be very, very cold to work properly. (Air molecules at room temperature move around too much.) But this neat little feat could be put to use in physics labs, where researchers are looking for quantum effects in very small vibrating systems—a tiny sensor for tiny things.

source:Gizmodo

Amazing!

The "bioprosthetic" artificial heart from Carmat
has been implanted in a human being. The
procedure was performed on December 18th at
France's Georges Pompidou European Hospital,
and the patient is said to be doing well. Carmat
says he is currently awake in the intensive care
unit and is speaking with family members.
According to the company, the operation went
"smoothly" and the heart is providing blood flow
as expected. It marks the first successful human
implant for Carmat, with other trials slated for the
future.
Carmat's innovative artificial heart — which
includes sections of cow tissue — initially won
approval in Saudi Arabia, Slovenia, Poland, and
Belgium earlier this year. The company's home
country of France eventually came on board in
September, and Health Minister Marisol Touraine
is wasting no time in touting Carmat's success.
"This news brings great pride to France," she told
BFM TV. "It shows we are pioneers in healthcare,
that we can invent, that we can carry an
innovation that will also bring great hope to
plenty of people." Carmat's CEO Marcelo Conviti
took a more cautious tone. "We are delighted with
this first implant, although it is premature to draw
conclusions given that a single implant has been
performed and that we are in the early
postoperative phase," he said in a statement.
Carmat's artificial heart, which is three times
heavier than a human's, can beat for up to five
years and is designed for patients suffering from
end-stage heart failure. Carmat has other patients
lined up for early human trials; according to
Reuters, the procedures will be deemed
successful for all patients that survive with the
implant for over a month. The heart could help up
to 100,000 patients across the US and Europe,
Carmat says. Assuming other trials go well, price
will continue to be the main barrier of entry;
Carmat's device is priced at around $195,000.



I have no words left . . . . . . Just wanna say STAY TUNED . . . . . . . . .